CN215584893U - Sterilizing device for remote controller - Google Patents

Abstract

A sterilizing device of a remote controller comprises an object placing box, an ultraviolet light lamp group, an indicator light, an infrared induction module, a control module, a boosting and transforming module, a charging module and a storage battery; the storage battery is respectively and electrically connected with the infrared induction module, the control module, the boosting and transforming module and the charging module; the control module is respectively electrically connected with the infrared induction module, the boosting and transforming module and the indicating lamp; the charging module is electrically connected with the indicator lamp; the voltage boosting and transforming module is electrically connected with the ultraviolet lamp bank; the storage box is provided with an inner cavity for placing the remote controller in advance, wherein the infrared sensing module and the ultraviolet light set are uniformly arranged in the inner cavity. The inner cavity of the storage box is placed in through the infrared induction module to induce the remote controller, and the ultraviolet lamp bank conducts rapid sterilization and disinfection on the surface of the remote controller after the infrared induction module induces the remote controller, so that the remote controller can conduct sterilization and disinfection in public places, and therefore the situation that people are infected by bacteria when using the remote controller in public places is reduced.

Description

Sterilizing device for remote controller

Technical Field

The utility model relates to the technical field of ultraviolet disinfection boxes, in particular to a disinfection device of a remote controller.

Background

At present, a plurality of remote controllers are arranged in families or public places, some remote controllers are arranged optionally, the remote controllers used by a plurality of people at high frequency cannot be sterilized and disinfected, and the key surfaces of the remote controllers can produce more bacteria, mites and harmful physical and psychological health of users after long-term use. The remote controller is a product which can be repeatedly used at high frequency, and the product has no way to sterilize and disinfect in the using process. In order to make the remote controller healthier for the consumer, a device capable of quickly sterilizing and disinfecting the surface of the remote controller is needed.

SUMMERY OF THE UTILITY MODEL

In view of the shortcomings of the prior art, the utility model aims to provide a sterilizing device for a remote controller.

In order to achieve the purpose, the utility model provides a disinfection device of a remote controller, which comprises an object placing box, an ultraviolet light lamp group, an indicator lamp, an infrared induction module, a control module, a voltage boosting and transforming module, a charging module and a storage battery; the storage battery is respectively and electrically connected with the infrared induction module, the control module, the voltage boosting and transforming module and the charging module; the control module is respectively electrically connected with the infrared induction module, the boosting and transforming module and the indicating lamp; the charging module is electrically connected with the indicator lamp; the boosting and transforming module is electrically connected with the ultraviolet lamp bank; the storage box is provided with an inner cavity for placing a remote controller in advance, wherein the infrared induction module and the ultraviolet light lamp group are uniformly arranged in the inner cavity.

Further, the indicator light is arranged on one side wall of the storage box.

Further, the charging module comprises a USB charging port, and the USB charging port is arranged on one side wall of the storage box.

Furthermore, the ultraviolet lamp set comprises two ultraviolet lamps.

Furthermore, the infrared sensing module comprises an infrared light receiving tube and an infrared light emitting lamp.

The utility model has the beneficial effects that: the inner cavity of the storage box is placed in through the infrared induction module to induce the remote controller, and the ultraviolet lamp bank conducts rapid sterilization and disinfection on the surface of the remote controller after the infrared induction module induces the remote controller, so that the remote controller can conduct sterilization and disinfection in public places, and therefore the situation that people are infected by bacteria when using the remote controller in public places is reduced.

Drawings

Fig. 1 is a block diagram of a connection structure of modules.

Fig. 2 is a schematic view of the use of the disinfection device.

Fig. 3 is a top view of the disinfection device.

Fig. 4 is a sectional view a-a.

Fig. 5 is a schematic circuit diagram of each module.

The system comprises a control module 10, a voltage boosting and transforming module 20, an ultraviolet light lamp set 30, a charging module 40, a storage battery 50, an indicator lamp 60, an infrared sensing module 70, an infrared light emitting lamp 71, an object placing box 80, an inner cavity 81 and a remote controller 90.

Detailed Description

To facilitate an understanding of the utility model, the utility model is described more fully below with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. These embodiments are provided so that this disclosure will be thorough and complete.

Referring to fig. 1 to 4, in the present embodiment, a disinfection apparatus for a remote controller includes a storage box 80, an ultraviolet light lamp set 30, an indicator light 60, an infrared sensing module 70, a control module 10, a step-up and step-down module 20, a charging module 40, and a storage battery 50. The storage box 80 is pre-installed with an inner cavity 81 for placing the remote controller 90, wherein the ultraviolet light lamp set 30 and the infrared sensing module 70 are disposed in the inner cavity 81. The charging module 40 includes a USB charging port, and the indicator 60 and the USB charging port are disposed on a side wall of the storage box 80. The battery 50 is electrically connected to the infrared sensing module 70, the control module 10, the step-up and step-down module 20, and the charging module 40, respectively. The control module 10 is electrically connected to the infrared sensing module 70, the step-up transformer module 20 and the indicator lamp 60, respectively. The charging module 40 is electrically connected to the indicator lamp 60. The step-up transformer module 20 is electrically connected with the ultraviolet lamp set 30. In the present embodiment, the uv lamp set 30 includes two uv lamps.

Referring to fig. 5, in the present embodiment, the control module 10 includes an MCU chip, wherein the model of the MCU chip is N76E 885.

Referring to fig. 5, in the present embodiment, the step-up transformer module 20 includes an R5 resistor, a step-up transformer chip, a D4 diode, an R3 resistor, and an R4 resistor, wherein the P2 interface of the MCU chip is connected to the 2 interface of the step-up transformer chip through an R5 resistor. One end of the R3 resistor and one end of the R4 resistor are connected to the FB interface of the boosting transformer chip in parallel; the other end of the R3 resistor and the output end of the D4 diode are connected to the ultraviolet lamp set 30 in parallel; the other end of the R4 resistor is connected to ground. The input end of the D4 diode is connected to the 1 interface of the step-up transformer chip. In the present embodiment, the boost transformer chip is a B628 boost chip. In the present embodiment, when the step-up transformer module 20 is operated, the electricity of the battery 50 is boosted by the step-up transformer module 20 and then supplied to the ultraviolet lamp set 30.

Referring to fig. 5, in the present embodiment, the charging module 40 further includes an R7 resistor, a charging management chip and a C1 capacitor, wherein the USB charging port is connected to one end of the R7 resistor; the other end of the R7 resistor and one end of the C1 capacitor are connected to the charging management chip; the other end of the C1 capacitor is connected to ground. The battery 50 is connected to the charge management chip. In this embodiment, the chip model of the charge management chip is TP 4056.

Referring to fig. 5, in the present embodiment, the MCU chip further includes an R8 resistor, a D5 diode, and a D6 diode, wherein a P3 interface of the MCU chip is connected to an input terminal of the D5 diode; the USB charging port is connected to the input end of the D6 diode through an R8 resistor; the output of the D5 diode and the output of the D6 diode are connected in parallel to the indicator light 60 such that the indicator light 60 lights up when the charging module 40 is charging the battery 50.

Referring to fig. 5, in the present embodiment, the infrared sensing module 70 includes an infrared light receiving tube and an infrared light emitting lamp 71, wherein an OUT output terminal of the infrared light receiving tube is connected to a P1 interface of the MCU chip. The infrared light emitting lamp 71 is connected to the P3 interface of the MCU chip, in the present embodiment, the infrared light receiving tube is IRM-8601M 2. In the inner cavity 81, the infrared light emitting lamp 71 emits infrared light, and when the remote controller 90 is placed in the inner cavity 81, the remote controller 90 blocks the infrared light to reflect the infrared light to the infrared light receiving tube. When the infrared light receiving tube receives the infrared signal, the infrared light receiving tube feeds back a control signal to the MCU chip.

Referring to fig. 1 or fig. 2, in this embodiment, when the MCU chip receives a control signal from the infrared light receiving tube, the control module 10 sends a control signal to the step-up and step-down module 20 to operate the step-up and step-down module 20, so that two ultraviolet lamps of the ultraviolet lamp set 30 are turned on; at the same time, the control module 10 controls the indicator light 60 to light up. When the remote controller 90 is taken out of the inner cavity 81, the control module 10 sends a control signal to the step-up and step-down module 20, so that the step-up and step-down module 20 stops working, and the two ultraviolet lamps of the ultraviolet lamp set 30 are turned off.

The control of the control module 10, the step-up transformer module 20, the ultraviolet light lamp set 30, the indicator light 60, the charging module 40 and the infrared sensing module 70 described above with respect to each other is a computer program that can be loaded onto a computer or other programmable data processing apparatus by computer program instructions, so that a series of operation steps are performed on the computer or other programmable data processing apparatus to produce a computer implemented process, such that the instructions that execute on the computer or other programmable data processing apparatus provide steps for implementing the functions specified in one or more flows of the flowcharts and/or one or more blocks of the block diagrams, and it is within the routine skill of those skilled in the art.

The above-described embodiments are merely preferred embodiments of the present invention, which is not intended to limit the present invention in any way. Those skilled in the art can make many changes, modifications, and equivalents to the embodiments of the utility model without departing from the scope of the utility model as set forth in the claims below. Therefore, equivalent changes made according to the spirit of the present invention should be covered within the protection scope of the present invention without departing from the contents of the technical scheme of the present invention.

Claims (5)

1. A sterilizing device of a remote controller is characterized in that: the device comprises a storage box (80), an ultraviolet light lamp group (30), an indicator light (60), an infrared induction module (70), a control module (10), a boosting and transforming module (20), a charging module (40) and a storage battery (50); the storage battery (50) is electrically connected with the infrared induction module (70), the control module (10), the voltage boosting and transforming module (20) and the charging module (40) respectively; the control module (10) is respectively and electrically connected with the infrared induction module (70), the boosting and transforming module (20) and the indicator lamp (60); the charging module (40) is electrically connected with the indicator lamp (60); the boosting and transforming module (20) is electrically connected with the ultraviolet light lamp set (30); an inner cavity (81) for placing a remote controller (90) is preset in the storage box (80), wherein the infrared sensing module (70) and the ultraviolet light lamp group (30) are uniformly arranged in the inner cavity (81).

2. A sterilizing apparatus of a remote controller as claimed in claim 1, wherein: the indicator light (60) is arranged on one side wall of the storage box (80).

3. A sterilizing apparatus of a remote controller as claimed in claim 1, wherein: the charging module (40) comprises a USB charging port, and the USB charging port is arranged on one side wall of the storage box (80).

4. A sterilizing apparatus of a remote controller as claimed in claim 1, wherein: the ultraviolet lamp set (30) comprises two ultraviolet lamps.

5. A sterilizing apparatus of a remote controller as claimed in claim 1, wherein: the infrared sensing module (70) comprises an infrared light receiving tube and an infrared light emitting lamp (71).

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